RU2023451C1 - Injector - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: injector has case with a needle, piston, ring, and plunger. The piston is provided with tabs. Opening of the ring has alternative cross-section. The tabs are made of flexible plates, flat spiral springs or material having shape memory. EFFECT: improved design. 2 dwg

Description

 The invention relates to medicine, namely to needle injectors.

 Known disposable syringe containing a housing with a needle, a piston, a ring with an axial hole, a pusher connected to the piston. Holes are made in the piston, closed by an elastic membrane from the end.

 The disadvantage of the syringe is the limited possibilities of its use when performing injections that require checking the correctness of the needle (for internal and subcutaneous injections) by sucking in a certain amount of tissue fluid, because after the air is displaced before injection, the syringe cavity is depressurized as a result of the piston moving away from the ring overlapping the holes in the piston from the upper end. The indicated syringe also cannot be reused, naturally, after repeated sterilization, because its high-temperature shell in the autoclave will lead to deformation of the elastic shell and naturally to the failure of the syringe.

 A known design of a syringe containing a housing with a needle, a ring and a piston, while the piston is equipped with elastic petals (plastics), and the ring has the same cross section as the end of the pusher. The elastic petals of the piston are installed with the possibility of contact with the end of the pusher. After the injection, the piston is disconnected from the pusher.

 The disadvantage of the design of the syringe is the ability to assemble it for reuse without sterilization.

 The goal is to eliminate the possibility of using the injector repeatedly without prior sterilization.

 This goal is achieved by the fact that in a known syringe containing a housing with a needle and a pusher placed therein, one end of which is made with a variable cross section, increasing towards the free end of the pusher, a piston with elastic petals mounted with the possibility of contact with the pusher section of a variable section , a ring with a hole mounted above the piston in contact with it through the petals, while the hole in height is made constructive bottom end of the pusher. According to the invention, the petals are made of a shape memory material.

 Figure 1 shows the injector in the initial position; figure 2 is the same at the time of displacement of the drug.

 The injector comprises a housing 1 with a needle 2, in which a piston 3 is placed, equipped with petals 4 made in the form of elastic plates, a pusher 5 and a ring 6 with a through hole 7. The end 8 of the pusher 5 is made with a variable section increasing towards the end. The ring 6 is strung on the pusher 5, while the hole 7 has a cross-section that is variable in height of the ring 6. In the initial position, the petals 4 are passed into the hole 7 and clamped in it by the ring 8 of the pusher 5. The petals are made of metal with shape memory.

 The injector operates as follows. From the starting position (figure 1) carry out a set of drugs in the under-piston cavity of the injector, for which the pusher 5 is pulled and the drug is sucked in. After you set the required dose by pressure on the pusher 5 and moving it to a certain distance, air is displaced from the subpiston cavity until the drug appears from the needle 2 (figure 2). In this case, the ring 6 due to friction against the walls of the housing 1 remains in place. The end of the pusher 8 leaves the hole 7 of the ring 6, freeing the petals 4, and pushes the piston 3, which displaces the air. The petals 4 are made long enough so as not to come out of the opening of the ring 6 when performing this operation. In this position, needle 2 is inserted into body tissue. If it is necessary to assess the correctness of the introduction of the needle 2, the tissue fluid is sucked in, for which the pusher 5 is pulled out by a certain amount, the latter with its end 8 interacting again with the petals 4 remaining in the hole 7, clamping them. Now, with further pulling of the pusher 5, the piston 3 is carried away after it and the tissue fluid is sucked into the injector cavity.

 After control operations, making sure that the needle is inserted correctly, an injection is made. Pressure on the plunger 5, which again goes out of interaction with the ring 6 remaining in place and the petals 4 and rests with its end 8 against the piston 3, transferring pressure to the medicinal fluid, it is forced into the body tissue. As the piston 3 moves, its petals 4 come out of the hole 7 of the ring 6 and diverge to the sides. After complete displacement of the drug, the piston 3 returns to its original position. But now it’s no longer possible to take medicine again, because the pusher 5 no longer interacts with the petals 4 of the piston 3 due to the fact that the ring 6 remains in the upper part of the injector.

 An attempt by improvised means to bring the injector to its original position (Fig. 1) is impossible due to the fact that the petals 4, having diverged in different directions, will not fall into the hole 7 of the ring 6. That is, it is impossible to re-inject the medicine and make the injection.

 To restore the injector's performance, it is necessary to disassemble it, for example, by supplying compressed air to the under-piston cavity, sterilize the parts, assemble it after sterilization and introduce it into the body with a special device.

 In this case, the characteristics of the alloy of the petals should be such that at the sterilization temperature the ends of the petal 4 are bent and pressed the ring 6 to the piston 3. In this position, the piston is inserted into the housing, and then under normal conditions the petals 4 take their original shape. In this case, special assembly tools are not needed.

 Thus, the design of the injector allows you to expand operational capabilities by observing the techniques and rules for performing injections, as well as restore it after sterilization for further use. An important advantage is that reusable syringes can be turned into injectors.

Claims (1)

 INJECTOR, comprising a housing with a needle and a pusher placed in it, one end of which facing the bottom of the housing is made with a variable cross section increasing towards the free end of the pusher, a piston with elastic petals mounted with the possibility of contact with the plunger of a variable cross section, a ring with a hole mounted above the piston in contact with it through the petals, while the hole in height is made congruent to the bottom end of the pusher, characterized in that, in order to exclude the possibility of repeated use of an injector without preliminary sterilization, petals are made of material with shape memory.

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